Tree ring anatomy indices of Pinus tabuliformis revealed the shifted dominant climate factor influencing potential hydraulic function in western Qinling Mountains

Trees can adjust xylem anatomical structure related with potential hydraulic functions to cope with climate variability. We therefore need a better understanding of how climate variability constrains wood anatomy and tree radial growth. Pinus tabuliformis dominates natural forests and plantations over the western Qinling Mountains, which is one of the ecologically vulnerable areas in China. Here, we investigated the response of P. tabuliformis tree-ring anatomical structure to climate variability by applying wood anatomy analysis, and evaluated the influences of anatomical traits on potential hydraulic functions and the climate significance of intra-annual density fluctuations (IADFs). We found that with the increasing temperature from spring to summer, the negative effect of temperature on the formation and enlargement of earlywood and transition-wood tracheids was gradually enhanced. However, spring precipitation not only had a direct and positive influence on the formation of earlywood, but also had a delaying impact on the transition-wood cell enlargement. Besides, the smaller earlywood tracheid size of P. tabuliformis could be a substantially characteristic reflecting spring drought. The contribution of lumen diameter on conduit wall reinforcement was dominated in earlywood, while the contribution of cell wall thickness was greater than that of lumen diameter in latewood. The different contributions of anatomical traits on conduit wall reinforcement would further affect the response of potential hydraulic function to climate. IADFs of P. tabuliformis could be a potential indicator to reflect the abnormal summer precipitation events in the western Qinling Mountains. IADFs with strong and weak intensity indicated years with high and low rates of change in mid-summer precipitation, respectively. Future warmer and drier climate in the western Qinling Mountains will likely result in the production of smaller tracheids to ensure hydraulic safety, which means the stronger drought resistant of P. tabuliformis in the future. In this study, we linked the xylem anatomy and potential hydraulics functions with intra-seasonal climate variability in the context of climate warming and drying, and proposed some xylem anatomical indices reflecting potential drought events.     

Linking tree growth and intra-annual density fluctuations to climate in suppressed and dominant Pinus sylvestris L. trees in the forest-steppe of Southern Siberia

Climate change affects forest dynamics with potential consequences for essential ecosystem services. The retrospective analysis of secondary growth unveils the effect of climate on forests. However, most tree-ring studies focus on dominant trees, and less is known about the climatic response of their neighbor suppressed trees. We evaluated the influence of tree social status (dominant/suppressed) on climate response in Pinus sylvestris L. trees from two sites with contrasting water availability conditions in the forest-steppe ecotone in southern Siberia. Tree-ring width and intra-annual density fluctuations (IADFs) were used as proxies. Late spring to early summer conditions were the main climate drivers in both tree social status, but the climate response of suppressed trees was stronger and had a longer time window (May-June). IADFs’ occurrence was controlled by temperature and its frequency was modulated by local conditions, being more common at the dry site, with tree status just marginally significant. Our results suggest that under the projected warmer and drier climate, suppressed trees in southern Siberia will be prone to increased water shortage, leading to possible higher mortality of more sensitive suppressed trees, with potential consequences for carbon sequestration in the forest-steppe ecosystems in southern Siberia.     

黑龙江省通河乌龙狩猎场野猪冬季食性的初步研究

野生动物食性的研究,在野生动物保护和管理方面具有重要的基础理论意义。野猪（Sus scrofa）是一种经济价值较高的有蹄类动物。国内对野猪食性的报道,仅见综述性献（巫露平,1980;李振营和罗泽殉,1983;杨伯然,1984）,野猪食性方面的研究尚未多见;国外对野猪食性的研究主要集中在食物组成的定量分析和食物营养质量的评价（Eriksson and Petrov,1995;Foumier-chambrillon et al．,1995;朝日念,1985）。因此,作从2000～2001年,分别在黑龙江省通河乌龙狩猎场收集粪样,利用粪便显微组织学分析方法并结合野外掘食痕迹对野猪冬季食性进行了初步研究。     

基因芯片技术研究柽柳NaHCO3胁迫下基因的表达

运用基因芯片技术研究了NaHCO3胁迫下柽柳(Tamarix androssowii)基因的表达.将Cy5和Cy3两种荧光染料分别标记在NaHCO3处理和对照的柽柳cDNA上,将两种荧光探针混合,与载有柽柳基因的高密度芯片进行杂交并用芯片扫描系统进行扫描,通过Cy5与Cy3信号强度比值的计算研究基因的差异表达.共获得了89个差异表达的基因,其中,27个下调表达,62个上调表达.BlastX分析表明这些基因按功能可以分为光合作用、活性氧清除、渗透调节、信号传导与表达调控、代谢、发育相关、核糖体蛋白、蛋白质的分解与再生、转运类蛋白、水通道蛋白等几大类别.同时,发现了一些与盐胁迫相关的功能未知基因或未有任何功能信息的基因,这些基因可能在柽柳抗盐过程中具有重要作用.揭示了柽柳的抗盐胁迫涉及的几种重要途径,并获得了NaHCO3胁迫前后柽柳基因表达谱.     

氮素形态对黄檗幼苗三种生物碱含量的影响

通过改变水培溶液中NH 4-N和NO3--N的比例,探讨了氮素形态对黄檗幼苗主要药用成分小檗碱、药根碱及掌叶防己碱含量的影响。结果表明,小檗碱的含量与氮素形态有明显关系,在根和茎中都表现为NO3--N比例高更有利于小檗碱的积累。单纯的NO3--N供给最有利于药根碱在黄檗幼苗根中的积累,而处理46d后,NH4 -N/NO3--N为75/25和25/75时黄檗幼苗茎中的药根碱含量最高。黄檗幼苗根和茎中的掌叶防己碱含量对营养液中NH4 -N和NO3--N的比例反应类似,在处理46d后,掌叶防己碱含量由高到低所对应的NH4 -N/NO-3-N为25/75、50/50、75/25、0/100、100/0。处理33d后,黄檗幼苗根中的小檗碱、药根碱、掌叶防己碱含量随处理天数的增加呈下降趋势,而在茎中呈上升趋势。如果同时考虑氮素形态对黄檗幼苗生物量的影响,那么NH4 -N/NO3--N为0/100时其小檗碱产量(含量与生物量乘积)最高,而NH4 -N/NO-3-N为25/75时药根碱和掌叶防已碱的产量最高。     

连作对大豆根部土壤微生物的影响研究

研究了正茬与连作大豆根际及非根际土壤微生物区系的变化。结果表明,细菌总数占绝对优势,连作低于正茬。放线菌数量总体变化幅度不大,真菌数量有显著变化,连作明显高于正茬。连作使土壤pH、含水率和微生物主要生理类群数量明显下降,土壤肥力降低。无论细菌、放线菌和真菌,正茬及连作大豆根际微生物数量明显高于非根际。     

细根分解研究及其存在的问题

细根分解是陆地生态系统C和养分循环的重要环节。主要包括淋溶和破碎等物理过程和以生物作用为主的化学过程。这些过程受复杂的细根化学成分及外部土壤因子的综合控制,如细根本身养分含量、木质素和纤维素含量、土壤温度、水分、养分的有效性以及土壤动物、真菌和细菌等。但是,细根分解发生在不能直接观测的地下部分,人为改变细根分解的自然环境是研究过程中存在的主要问题。埋袋法虽然应用最为普遍,但是它严重地干扰了细根分解环境,导致低估分解速率。最近提出的原状土芯法(intact-core)克服了埋袋法的主要缺陷,是目前细根分解研究中最接近自然分解过程的研究方法,但也存在一些问题。因此,如何设计有效且能够真实的反映细根自然分解过程的试验方法是今后该领域研究最重要和最具挑战性的课题。     

毛脉酸模不同器官中几种生物活性物质的含量及生长季节对其的影响

为确定毛脉酸模(Rumex gmelini)最佳药用部位和最佳采收期, 从而为新药源开发提供科学依据, 我们采用HPLC法和梯度洗脱, 研究了一年生和二年生毛脉酸模不同生长发育期、不同器官、组织中7种生物活性成分(白藜芦醇、白藜芦醇苷、大黄酚苷、酸模素、大黄素、大黄酚和大黄素甲醚)的动态分布规律。结果表明毛脉酸模根部含有生物活性成分的种类及含量均多于其他部位, 为最佳药用部 位。一年生毛脉酸模根部不含有酸模素。二年生毛脉酸模根部含有全部7种生物活性成分, 且在8~9月份含量最高, 为最佳采收期。